Normal PE Projectile acceleration meters frame of reference e- parallel velocity newton crest Joules tangential speed series energy centripetal Component refraction Pulse m+direction Voltage longitudinal frequency chemical energy Compresssion amplitude Power momentum mechanical force Terminal velocity Resultant vector transverse wave circuit breaker diffraction KE current medium constructive Amps kg Electromagnetic Wave Wave Conservation of Energy Cycle Rarefaction trough friction inelastic nuclear convex insulator N*s volts inertia resistance m/s speed Vibration reflection centrifugal wavelength rest point static discharge concave EME heat energy destructive net force period fuse Mechanical Wave Induction impulse m/s2 Static Charge 3rd Time gravity force EMF ohms watts elastic Applied kg*m/s conductor circuit 1st Normal PE Projectile acceleration meters frame of reference e- parallel velocity newton crest Joules tangential speed series energy centripetal Component refraction Pulse m+direction Voltage longitudinal frequency chemical energy Compresssion amplitude Power momentum mechanical force Terminal velocity Resultant vector transverse wave circuit breaker diffraction KE current medium constructive Amps kg Electromagnetic Wave Wave Conservation of Energy Cycle Rarefaction trough friction inelastic nuclear convex insulator N*s volts inertia resistance m/s speed Vibration reflection centrifugal wavelength rest point static discharge concave EME heat energy destructive net force period fuse Mechanical Wave Induction impulse m/s2 Static Charge 3rd Time gravity force EMF ohms watts elastic Applied kg*m/s conductor circuit 1st
(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.
Normal
PE
Projectile
acceleration
meters
frame of reference
e-
parallel
velocity
newton
crest
Joules
tangential speed
series
energy
centripetal
Component
refraction
Pulse
m+direction
Voltage
longitudinal
frequency
chemical energy
Compresssion
amplitude
Power
momentum
mechanical force
Terminal velocity
Resultant
vector
transverse wave
circuit breaker
diffraction
KE
current
medium
constructive
Amps
kg
Electromagnetic Wave
Wave
Conservation of Energy
Cycle
Rarefaction
trough
friction
inelastic
nuclear
convex
insulator
N*s
volts
inertia
resistance
m/s
speed
Vibration
reflection
centrifugal
wavelength
rest point
static discharge
concave
EME
heat energy
destructive
net force
period
fuse
Mechanical Wave
Induction
impulse
m/s2
Static Charge
3rd
Time
gravity
force
EMF
ohms
watts
elastic
Applied
kg*m/s
conductor
circuit
1st